Reena Jatyan scite author profile

Sorafenib tosylate (SFB) is a multikinase inhibitor that inhibits tumour growth and proliferation for the management of breast cancer but is also associated with issues like toxicity and drug resistance. Also, being a biopharmaceutical class II (BCS II) drug, its oral bioavailability is the other challenge. Henceforth, this report intended to encapsulate SFB into a biocompatible carrier with biodegradable components, i.e., phospholipid. The microemulsion of the SFB was prepared and characterized for the surface charge, morphology, micromeritics and drug release studies. The cell viability assay was performed on 4T1 cell lines and inferred that the IC50 value of sorafenib-loaded microemulsion (SFB-loaded ME) was enhanced compared to the naïve SFB at the concentrations of about 0.75 µM. More drug was available for the pharmacological response, as the protein binding was notably decreased, and the drug from the developed carriers was released in a controlled manner. Furthermore, the pharmacokinetic studies established that the developed nanocarrier was suitable for the oral administration of a drug by substantially enhancing the bioavailability of the drug to that of the free SFB. The results bring forth the preliminary evidence for the future scope of SFB as a successful therapeutic entity in its nano-form for effective and safer cancer chemotherapy via the oral route.

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Temozolomide-fatty acid conjugates for glioblastoma multiforme: In vitro and in vivo evaluation

Jatyan

Sahel

Sakhuja

et al. 2023

Journal of Controlled Release

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Polymeric and small molecule-conjugates of temozolomide as improved therapeutic agents for glioblastoma multiforme

Jatyan

Sahel

Karthik

et al. 2022

Journal of Controlled Release

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Lipopolymeric Nanocarrier Enables Effective Delivery of CRISPR/Cas9 Expressing Plasmid

Sahel

Goswami

Jatyan

et al. 2023

Macromol. Rapid Commun.

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CRISPR/Cas9 has proven its accuracy and precision for gene editing by making a double-strand break at the predetermined site. Despite being a mainstream gene editing tool, CRISPR/Cas9 has limitations for its in vivo delivery due to the physico-chemical properties such as high molecular weight, supranegative charge, degradation in the presence of nucleases, etc. Hereby, a cationic lipopolymer is explored for its efficiency in delivering CRISPR/Cas9 plasmid (pCas9) in vitro and in vivo. The lipopolymer is utilized to form blank cationic nanoplexes having a zeta potential of +15.8 ± 0.7 mV. Being cationic, the blank nanoplexes are able to condense the pCas9 plasmid at a ratio of 1:20 with a complexation efficiency of ≈98% and show a size and zeta potential of ≈141 ± 16 nm and 4.2 mV ± 0.7, respectively. The pCas9-loaded nanoplexes show a transfection efficiency of ≈69% in ARPE-19 cells and show ≈22% of indel frequency, indicating the successful translation of Cas9 protein and guide RNA in the cytosol. Further, they are found to be stable under in vivo environment when given intravenously in Swiss albino mice. These lipopolymeric nanoplexes can be a potential carrier for CRISPR plasmids for genome editing applications.

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Reena Jatyan

Opportunities and challenges of fatty acid conjugated therapeutics

Oral sorafenib-loaded microemulsion for breast cancer: evidences from the in-vitro evaluations and pharmacokinetic studies

Temozolomide-fatty acid conjugates for glioblastoma multiforme: In vitro and in vivo evaluation

Polymeric and small molecule-conjugates of temozolomide as improved therapeutic agents for glioblastoma multiforme

Lipopolymeric Nanocarrier Enables Effective Delivery of CRISPR/Cas9 Expressing Plasmid

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